Introduction
We built this carbon fiber heat lamp for the places where space is at a premium and you absolutely need intense heat. It’s a 400V halogen infrared lamp, designed from the ground up to be a direct-fit powerhouse for tough industrial heating jobs. You’re getting a seriously compact tube that cranks out high wattage, paired with a connector system we chose because it knows what it’s up against on a busy shop floor.
Technical Deep-Dive
Here’s the core of it: 400V and 2500W, all packed into a 300mm tube. That power density means you get a serious blast of infrared heat without having to tear apart your whole machine. The short length is a huge win when you’re fighting for space and trying to fit something into a tight spot. And it’s not messing around with low voltage. Running at 400V means less current for the same power, so your wiring stays cleaner and you don’t have to stress about voltage drop. The catch? You need to pair it with a 400V supply and a control circuit that can handle the full load, both the initial surge and the long haul.
Material & Design
Inside, the halogen cycle keeps the filament stable, even when it’s screaming hot. That means the output stays consistent, day after day. The quartz envelope is built for the shock of rapid on-off cycles, and the carbon fiber structure gives it serious stiffness and thermal stability. No more worrying about sagging or breakage. The R7s base is a no-brainer for industry. It handles high current, locks in place, and makes this lamp a simple drop-in replacement for most standard fixtures. If your machine already uses an R7s socket, you just wire it up the same way and you’re good to go.
Application & Benefits
This is your go-to for fast, focused infrared heating. Think plastic processing, curing, drying coatings, or component assembly. The concentrated heat hits your target temperature fast, and the compact tube makes it easy to fit into existing equipment. We built this to be a workhorse, ready for constant cycles. But with that kind of heat density, the parts around it need to be able to handle the warmth. Plan for some cooling and shielding, and you’ll have a lamp that just keeps on performing.